DE10305339A1 - Short-arc discharge lamp - Google Patents

Abstract

The invention relates to a short-arc discharge lamp in which a cathode and an anode are arranged opposite each other in a fluorescent tube, in which electrode carriers of the cathode and the anode are each inserted into a holding cylinder and the holding cylinders are held in contracted areas by side tubes which are attached to one another connect the fluorescent tube, and in which the outer circumference of the respective holding cylinder is covered with a coating material made of metal or ceramic. The respective holding cylinder has a section in the longitudinal direction with a reduced outer diameter, or protrusions protrude over its outer circumference. This prevents the holding cylinders from moving, that a force acts on the sealing areas in a concentrated manner and that the lamp is damaged when the lamp is shaken during transportation or the like.

Description

The invention relates to a short-arc discharge lamp, which is used for light sources for one Projector, for a semiconductor exposure, for UV curing and the like is used.

Conventionally, for example, a light source is usually used for a projector Short arc lamp used, in which xenon gas is filled. Lately there has been increasing frequency a strong need for more brightness of the projection image of the projector. There is therefore the Tendency to increase the amount of xenon gas filled. With a short arc lamp is in Recently the gas pressure in the fluorescent tube has been extremely high during operation.

With such a short-arc lamp, a spherical or oval fluorescent tube, which consists of quartz glass, filled with xenon gas, and at the same time become a cathode and an anode arranged opposite each other. The electrode supports of the cathode and the anode are in ends of the side tubes sealed, which connect to the two sides of the tube. Around To hold the electrode supports of the cathode and the anode, the ends of the side tubes contracted on the side of the fluorescent tube by heating, the diameter is reduced and thus contracted areas are formed. To be in the contracted To hold the electrode supports of the cathode and the anode directly in areas of the side tubes, however, the degree of contraction must be increased.

The electrode carriers of the cathode and the anode are therefore each in one Holding cylinder made of quartz glass inserted, the contracted areas of the side tubes to the Welded holding cylinders and thereby held the electrode carrier of the cathode and the anode.

If you look at the contracted areas of the side tubes on the holding cylinders welded, a wedge-like area is formed as a small gap at the welding end, which leads to breaks in operation. So you have, like in Japanese Patent Application HEI 11-135067 is shown, proposed an arrangement in which in An outer layer in the form of a metal layer or an outer circumference of the respective holding cylinder Ceramic layer is arranged.

In Fig. 1, a short-arc discharge lamp is shown as a prior art in a schematic cross-sectional view, in which the technique described in the above-described document is applied. Here, an anode 22 and a cathode 21 are arranged opposite one another in an oval fluorescent tube 10 . Adjacent to the fluorescent tube 10 are side tubes 11 , into which electrode carriers 23 are inserted, at the respective tip of which an electrode is attached and which are sealed at the ends of the side tubes. A sealing region 13 is thus formed at the respective end of the side tube. The electrode carriers 23 are each inserted into a holding cylinder 30 made of quartz glass for holding the electrode carrier and held therein. The outer circumference of the respective holding cylinder 30 is provided with an intermediate layer 40 in the form of a metal layer or a ceramic layer.

However, since the contracted portion 12 of the side tube and the holding cylinder 30 are not welded to each other, there is a fear that the holding cylinders 30 will move when vibration is applied to the lamp during transportation or the like. When the holding cylinders 30 move, the force concentrates on the sealing areas 13 , which leads to lamp damage.

The object of the invention is to provide a short-arc lamp in which the glass tubes of the holding cylinders are prevented from moving onto the lamp force concentrates on the sealing areas and that the lamp will be damaged if the Lamp is shaken during transportation or the like.

The object is achieved by the short-arc discharge lamp according to claim 1. Further developments are described in the subclaims.

In a first aspect of the invention, the object is achieved in a Discharge lamp in which a cathode and an anode lie opposite one another in a fluorescent tube are arranged, in which electrode carrier this cathode and this anode each by Inserting are held in a holding cylinder, in which these holding cylinders by contracted areas are supported by side tubes which connect to the fluorescent tube, and in which the outer circumference of the respective holding cylinder is covered with a coating material Metal or ceramic is coated, solved in that the respective holding cylinder in the Has a part with a reduced diameter in the longitudinal direction.

According to a development of the invention, the object is achieved in that the Holding cylinder an outer diameter decreasing towards the center of the cylinder have and the holding cylinders are preferably substantially like a hand drum, d. i.e., essentially cylindrical with a pillow-shaped constriction towards the middle of the cylinder.

The holding cylinder can also have several sections in the longitudinal direction with reduced Have diameter, so that the holding cylinder, for example, an outer contour with a have a wavy course in the longitudinal direction.

According to a further aspect of the invention, the object is achieved with a short-arc Discharge lamp in which a cathode and an anode lie opposite one another in a fluorescent tube are arranged, in which electrode carrier this cathode and this anode each by Inserting are held in a holding cylinder, in which these holding cylinders by contracted areas are supported by side tubes which connect to the fluorescent tube, and in which the outer circumference of the respective holding cylinder is covered with a coating material Metal or ceramic is coated, solved in that the outer peripheral surface of the respective Holding cylinder is provided with projections. For example, the holding cylinder on their respective ends have flange-like projections.

The holding cylinder can be either a round-cylindrical or a polygon-cylindrical Have basic shape.

The invention is illustrated below with reference to several in the drawing Embodiments described specifically. Show it:

Fig. 1 is a schematic cross-sectional view of a conventional short arc discharge lamp;

Fig. 2 is a schematic cross-sectional view of a short-arc discharge lamp according to the invention;

Fig. 3 (a) to (c) each show a schematic representation of an embodiment of a retaining cylinder, which short-arc discharge lamp is arranged in the present invention; and

Fig. 4 (a) to (c) are each an enlarged view of the vicinity of the holding cylinder according to the invention the short-arc discharge lamp.

Fig. 2 illustrates a xenon short-arc lamp as an example of the short-arc discharge lamp according to the invention. In a fluorescent tube 10 made of quartz glass, a cathode 21 and an anode 22 are arranged opposite one another, which are attached to the tips of a pair of electrode supports 23 , which consist of tungsten rods. Xenon gas is filled into the fluorescent tube 10 . Side tubes 11 extend on both sides of the fluorescent tube 10 . The electrode carriers 23 are each sealed in sealing regions 13 at the ends of the side tubes 11 .

A holding cylinder 30 made of quartz glass has a part with a smaller diameter in the central region in the longitudinal direction (the longitudinal direction of the electrode carrier 23 onto which the holding cylinder is pushed) on the outer circumferential surface. The electrode carriers 23 are held by the holding cylinders 30 . The diameter of the side tubes 11 is reduced by exposing the inside of the tube 10 to negative pressure and heating the ends of the side tubes 11 on the side of the tube 10 . Contracted areas 12 are thereby formed. As shown in FIG. 2, a coating material 50 made of metal or ceramic is applied between the respective holding cylinder 30 and the respective contracted region 12 . By means of this coating, the respective holding cylinder 30 and the respective contracted region 12 are fastened to one another without being integrally connected to one another by welding.

The holding cylinder 30 may have the shapes shown by way of example in FIGS . 3 (a), (b) and (c). However, the invention is not limited to these forms. The holding cylinder 30 has a part 31 with a reduced diameter in its longitudinal direction. By heating from the outer periphery of the side tube, the side tube is heated particularly at a position corresponding to the part 31 with a smaller diameter, whereby the contracted portion 12 is formed. A fastening is thus carried out in such a way that the holding cylinder 30 is constrained. In Fig. 3 (b), the two ends of the holding cylinder 30 are provided with protrusions 32 in the longitudinal direction. The protrusions 32 do not always have to be provided at both ends, but it is also possible if they are located anywhere on the outer peripheral surface of the holding cylinder. In Fig. 3 (c), the holding cylinder has a substantially hand drum-like appearance. This is particularly advantageous in view of the fact that the glass is easy to form (easy to produce). Reference numeral 33 denotes a through opening, into which the electrode carrier is inserted.

Fig. 4 (a), (b) and (c) each show a state in which the respective support cylinder shown in FIG. 3 (a) to (c) is inserted into the side tube, and this contracted by heating from outside of the side tube to fix the holding cylinder.

A molybdenum foil, for example, can be used as the coating material 50 . The manufacturing process in this case is described below.

First, a molybdenum film is wrapped around the outer peripheral surface of the holding cylinder 30 . If the inside of the fluorescent tube is subjected to a negative pressure and the side tubes 11 are heated along the tube axis, their diameter is reduced and the contracted regions 12 are formed . However, since the covering material 50 made of molybdenum foil is present, the holding cylinder 30 and the contracted region 12 are fastened to one another without being integrally connected to one another by welding. Since in this way only the process of winding the molybdenum foil as coating material 50 around the outer circumferential surface of the holding cylinder 30 is additionally required, it has the advantage that handling and production are extremely simple. The holding cylinder 30 does not always have to be a perfect cylinder, but can also be a polygon cylinder, for example from a pentagon. The term cylinder used here is intended to refer to all of these forms.

A vapor-deposited metal layer or sintered ceramic can also be used as the coating material 50 . In addition, a metal such as molybdenum can be deposited on the outer peripheral surface of the holding cylinder 30, for example by sputtering.

If ceramic is used as coating material 50 , one can proceed as follows:
Powdery ceramics such as alumina, zirconia, silicon carbide, tantalum carbide, titanium oxide or the like are dispersed in a binder, thereby obtaining an application liquid which is applied to the outer peripheral surface of the holding cylinder 30 in a predetermined thickness, heated and sintered. This creates a ceramic coating.

As described above, according to the invention, a short-arc Discharge lamp obtained, in which one prevents the glass tubes of the holding cylinder move a concentrated force on the sealing areas and damage the lamp becomes when the lamp is shaken during transportation or the like.

Claims (8)

1. Short-arc discharge lamp, in which a cathode and an anode are arranged opposite each other in a fluorescent tube, in which electrode carriers of the cathode and the anode are each inserted into a holding cylinder and the holding cylinders are held in contracted areas by side tubes which are attached to the fluorescent tube connect, and in which the outer circumference of the respective holding cylinder is coated with a coating material made of metal or ceramic, characterized in that the respective holding cylinder has a section in the longitudinal direction with a reduced outer diameter. 2. short-arc discharge lamp according to claim 1, characterized, that the holding cylinder decreases towards the center of the cylinder Have outside diameter. 3. short-arc discharge lamp according to claim 2, characterized, that the holding cylinders are essentially hand drum-like. 4. short-arc discharge lamp according to claim 1, characterized, that the holding cylinder in the longitudinal direction several sections with a reduced diameter exhibit. 5. short-arc discharge lamp according to claim 4, characterized, that the holding cylinder has an outer contour with a wavy course in the longitudinal direction exhibit. 6. Short arc discharge lamp, in which a cathode and an anode in a fluorescent tube are arranged opposite one another, in which electrode carrier the cathode and the anode are each in a holding cylinder are inserted and the holding cylinder in contracted areas of Side tubes are held, which connect to the fluorescent tube, and in which the Outer circumference of the respective holding cylinder with a coating material made of metal or ceramic is covered characterized, that the outer peripheral surface of the respective holding cylinder is provided with projections. 7. short-arc discharge lamp according to claim 6, characterized, that the holding cylinders have flange-like projections at their respective ends. 8. short-arc discharge lamp according to one of claims 1 to 7, characterized, that the holding cylinders have a polygon-cylindrical basic shape.